Glass feeding device



J. T. WOOD Sept. 24, 1935.

GLAS S FEEDING DEVICE Filed Dec.

1, 1932 6 Sheets-Sheet 1 Sept. 24, 1935. J. T. WOOD GLASS FEEDING DEVICE Filed 'Dec l, 1952 6 Sheets-Sheet VlIIIlfllIff/LQ Sept. 24, 1935. J WOQD 2,015,211

GLAS S FEEDING DEVICE Filed Dec. 1, 1952 6 Sheets-Sheet 3 Q l? 'lvl/z/vro [Ill]! L/ 7 W0 727 Sept. 24, 1935.

J. T. WOOD GLASS FEEDING DEVICE Filed Dec I, 1932 6 Sheets-Sheet J. T. WOOD GLASS FEEDING DEVICE Sept. 24, 1935.

Filed Dec. 1, 1932 6 Sheets-Sheet 5 Fin-9- FTEJD.

' 1/ TIA/00p Sept. 24, 1935'. J. T WOOD GLASS FEEDING DEVICE Filed Dec. 1, 1952 6 Sheets-Sheet 6 IFTQJZ.

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v Amy/v70? {J TWOOD Patented Sept. 24, 1935 GLASS FEEDING DEVICE John Thomas Wood, Sale, England Application December. 1, 1932, Serial No. 645,285

In Great Britain December 11, 1931 7 Claims. (01. 49-55) This invention relates to improvements in glass employed for controlling the supply of air, gas, feeding devices heated by waste heat from the or oil to the burners employed for heating the furnace, or gas or oil that are used in the manglass melting furnace; ufacture of glass bottles and other articles, and Fig. 14: a front elevation showing an arrangeit particularly relates to the type of feeder in ment for controlling by hand the vertical move- 5 which the molten glass is conveyed from the furment of the plunger. nace to the glass forming machine through a The above described figures are drawn to varyhorizontally extending flow-feeder or outer ing scales and like parts in all the views are chamber, known as the boot, made of fireclay or marked with similar reference numerals.

like refractory material having an outletin the Glass feeders have in some cases been provided 10 bottom near its outer end controlled by a vertiwith a channel having a fiat horizontal surface cal reciprocating plunger. which communicates directly with the outlet in The object of this invention is to obtain an the boot, consequently there is a tendency for improved glass feeding machine by the combithe glass to run down the side nearest to the furnation of the following parts, namely, (a) imnace, whereby h IIlOlten glass is 110iv evfinly 15 provements in the construction of the forehearth t buted a u d the d'o a d the p or boot of the feeder for obtaining a more even To overcome this difiiculty in this invention at distribution of the flow of the molten glass to a suitable distance from the outlet 9 of the the outlet orifice; (b) the adjustment of the boot 2 a depression or recess 3 is formed in the plunger for allowing it to be easily placed in bottom of the channel 4. The bottom 5 of the 20 position in vertical alignment with the outlet front portion of the channel 4 in the boot is orifice, and its operation for delivering different on the same level as the bottom 6 at its rear end predetermined weights of glass; (0) the control having the recess or depression 3 interposed beof the valves for supplying air and gas or oil tween the two parts 5 and 6. On the floor 5 to burners employed for heating the feeder, and of the front portion of the channel 4 is formed 25 ((1) means for controlling the dampers respecan upstanding central piece l,-of suitable tively between the furnace and the forehearth or height,which is integral therewith and recessed boot and in the chimney connected to the outin its front surface 8 and also provided with let flue. vertical sides 9, 9, which taper in an inward di- In the drawings hereunto annexedrection, that is, towards the recess or depression 30 Fig. 1 is a front elevation of a glass feeding 3. The front 8 and rear surface II] of the upmachine constructed according to this invention; standing piece I are arranged. vertically at or Fig. 2 a sectional side elevation of Fig. 1; about the longitudinal centre thereof and respec- Fig. 3 a sectional side elevation of a forehearth tively level with the lip H of the recess or deor boot of a glass feeding machine; pression 3 and with the lip I2 of the outlet ori- 35 Fig. 4 a plan of Fig. 3; fice I. The recess E3 in the upstanding portion Fig. 5 a part sectional elevation showing the forms two arms 54, Hi, the front edges l5, l5, means for attaching a plunger to the plunger pisof which are suitably curved and inclined towards ton rod whereby the said two parts may be adthe vertical centre of the orifice i. The two injusted in relation to each other; clined sides 9, 9, of the upstanding piece 1 form 40 Fig. 6 a plan looking on the top of Fig. 5; channels l6, it, which communicate with the Fig. '7 a sectional elevation of a modified arfront curved end ll ofthe boot 2, and the said rangement of the adjusting means shown at channels may be wider at their rear end,- -that Fig. 5; is, the lip il,--than at the front, as shown at Fig. 8 a plan looking on the top of Fig. '7; Fig. 4. By providing the two channels it with 45 Fig. 9 a side elevation of the automatic means the central upstanding piece l, and arms it, it, employed for controlling the up and down verthe molten glass as it passes from the furnace tical movement of the plunger; is diverted into the two channels i5, i6, which Fig. 10 a part plan looking on the top of Fig. 9; guide it to the front portion of the lip it of the Fig. 11 a part sectional elevation showing an orifice At the same time part of the glass arrangement for shortening or lengthening the may be allowed to flow over the top of the upstroke of the plunger; standing piece 1', whereby the glass is evenly Fig. 12 an elevation showing a double acting distributed around the lip E2 of the outlet orifice valve controlled by a pair of solenoids; 5, and the distribution of the glass is uniform. Fig. 13 a sectional elevation showing a valve 7 In this invention provision is also made for 55 attaching the plunger I8 to the fixing rod I9,-as shown at Figs. 5 to 8,in such a manner that it is capable of adjustment and replacement when necessary, whereby the plunger [8 may be easily centralized relative to the orifice ring 20,-Fig. 2,or outlet I of the boot 2.

The above object is obtained by the plunger rod 99 having slide 2| formed integral with its lower end, the said slide 2i being mounted in a slide holder 22, which, in turn, is provided with a slide 23 formed on its undersurface, the second slide 23 being mounted in a second slide holder 24. slides 22! 23, being used arranged at a right angle to each other. The outer portion of the second slide holder 24 is provided at each side with a bifurcated lug 25 having an upstanding projection 28. In each of the said lugs 25 is mounted horizontally a pivot pin 2'! arranged to carry a double ended lever 28, the lower arm of which is carried downwards a suitable distance and provided with an enlarged end 29, the upper surface of which is adapted topass under the fiange 30 of the plunger l8. The upper arm 3i of the said lever 28 is carried a suitable distance in an outward horizontal direction and then turned up vertically so as to provide a surface against which a spring controlled or other collar 32, slidably mounted upon a horizontal spindle 33, is arranged to engage. The horizontal spindle 33 is provided with a head 33 which is either formed thereon, or attached thereto, and which passes into a recess 35 formed for its reception in the'collar 32. The opposite end is provided with a vertical hole through which passes a vertical pin 36,-Fig. 7,- formed on, or fixed to, the upstanding projection 28 on each lug 25 of the second slide holder 24. The top of the vertical pin 35 may either be screw-threaded for the reception of a nut, or it may be slightly reduced in diameter for the reception of a collar 31 through which a split pin is fixed for retaining it in its position.

In some cases the end of the just named horizontal spindle 33 may be reduced in diameter and pass through a hole or slot in the upstanding projection 26 of the said lugs, and when this last named arrangement is employed a split or other pin 38 is used for fixing or pivoting purposes, as shown at Fig. 5. Or, in other cases, it may be found more convenient to fix the said horizontal spindle 33 in position either by keying one of its ends in the projection, or by passing a taper pin 39,Fig. 7,vertically through it and the projection. Further, if desired, the spring 40 for controlling the collar 32 may be dispensed with and a nut 4| employed in place thereof. Or, the spring ii] and collar 32 may both be dispensed with, and when this is done the horizontal spindle 33 is formed in one piece or it is divided into two portions,as shown at Fig. 7,--which are hinged or otherwise connected together by a pin 42 passing through them, and the outer end of the said spindle 33 is provided with a screwthread on which is or are mounted one or more nuts 43 for adjusting purposes. The spring controlled or other collars 32 or adjusting nuts 43 are employed for impinging against the upper end 3! of the double ended levers 28, whereby the periphery of the plunger I8 is gripped firmly by their lower enlarged clamping ends 29 for retaining the plunger I8,which may be hollow or solid,in a desired working position.

A plate 61 may be secured to each end of the slide holders 22, 24 and provided with a horizontal adjusting screw 58 on which a lock nut 49 may be The just named arrangement permits of two 7 mounted. In this type of locking means the end of an adjusting screw 48 will impinge against each end of the slides 2|, 23 for retaining them in the desired position.

In some cases,as shown at Figs. 7 and 8,it may be found advisable only to provide a clamping device consisting of one slide 58. When this is done the lower portion 5! of the clamp is provided with the hereinbefore mentioned lugs 25, 25, and the base,-which forms the slide 55,of the plunger fixing rod 59, may be of any suitable contour, as, for example, circular, or square, and may be in the form of a plate, as shown in the drawings.

A ring or plate 52, having a hole 53 in the centre thereof of the same contour as the base, may be fixed to the upper surface of the portion 5! to act as a distance piece, to the top of which is fixed a plate 54 provided with a circular or square hole 55 so as to provide an overlapping portion which passes over the top of the slide 55 of the plunger rod I9. In the plate 5:! the circular or square hole 55 will require to be of such a size and shape as will permit of the rod l9 of the slide 50 working horizontally therein. The bosses or distance piece that are or is inserted between the upper surface of the portion 5|, and the undersurface of the overhanging plate 55, require to be of such a depth as to correspond with the thickness of the slide 59 of the plunger rod iii. The overhanging plate 55, and in some cases the distance piece, are retained in position'by set screws 55. In order to adjust the movement of the slide 59, horizontal set screws Eli are arranged in suitable positions to pass through the distance piece 52 at a right angle thereto, or, if desired, separate plates may be fixed to the perimeter of the lower portion 5! and the upper plate 54 and secured thereto by set screws, or other convenient means. In all cases the horizontal adjusting screws 51 are arranged to pass into the space between the upper surface of the portion 5! and the undersurface of the overhanging plate 54, said screws being provided with lock nuts 58. By adjusting the screws 5'5 the slide 50 is moved to any desired position in relation to the plunger l8 for centralizing it,th plunger,-with the outlet 5 in the boot 2.

For delivering different predetermined weights of molten glass an adjustable stop 59 (Figs. 1 and 2) ,prevented from rotation by a key carried by bracket 69 and keyway formed in the adjustable stop 59,has been mounted upon the plunger piston rod 6i which is operated in a known manner by a cylinder 62. On the adjustable stop 59,which is in the form of a screw a suitable distance from its lower end, the said shafts being carried in suitable bearings 12, 13, 74, formed on, or fixed to, the framework 55 of the machine. The adjustable stop 59 is arranged to intermittently engage with a fixed stop i5 secured to the plunger piston rod 5 l.

t In this arrangement the position of the adjust- 68, 69 herein described, raises or lowers the adjustable stop 59 to the required position in relation to the fixed stop 15 for lengthening or shortening the plungers stroke.

In this invention at Figs. 1, 9, and 10, provision is made for automatically moving the before named adjustable stop 59 a predetermined distance alternately, thereby causing the plunger l8 to be moved so that the bottom thereof is a predetermined different distance away fromv the outlet ring 29 below the boot 2 on alternate strokes. By this arrangement two predetermined but different weights of molten glass are alternately fed by mechanism arranged as follows:-

A spur pinion 16 is secured to the lower end of the before named vertical shaft 18 and arranged to communicate with a rack H which is secured to the horizontal piston rod i8 of an operating cylinder 59 which, in turn, is fixed either to a separate framework or to the casting 8d of the feeder. The piston BI and its rod 18 are caused tointermittently reciprocate in a forward and backward direction by compressed air which is admitted alternately through pipes 82, 83, at each end of the cylinder 19 in the usual manner, whereby the vertical shaft 10 will be rotated by the engagement of the rack IT with the spur pinion l6 fixed on the shaft 10. movement of the piston 8i and parts connected therewith lift and .lower,alternately,the adjustable stop 58. To adjust the stroke of the piston 8! the piston rod 18 is extended in a rearward direction and passes through a bracket 84 which acts as a fixed stop and is secured to the casting 86 of the feeder.

On each side of the fixed stop 3d are provided adjustable stops 85, 8fi,in the form of lock nuts,--whereby it is possible to: adjust the stroke of the rack Tl as described. By adjusting the said nuts 85, 36, any length of stroke of the rack Ti and rotation of the pinion 16 may be obtained and transmitted by means of the vertical and horizontal shafts I0, 61, and mitre gearing 63, 56, 68, 69, thereon to the adjustable stop 59 on the top piston rod 6|, thereby automatically moving the said stop upwards and downwards any desired distance in relation to the fixed stop 75 for regulating the stroke of the plunger l8. Instead of securing the rack 11 rigidly to the piston rod i8 it may be pivoted by pin 8'! thereto and held in mesh with the spur pinion by a suitably coiled or other spring .88, supported by bracket 89. This arrangement is provided so as to permit of the operator being able to regulate the adjustable stop 59 by hand, and is accomplished by the rack ll being first withdrawn from contact with the spur pinion 16 which permits of the hand wheel H on the vertical shaft 10 being turned in the desired direction. Compressed air is admitted to, and exhausted from, the operating cylinder 79 by existing or additional valves on the usual feeder timer that operates the glass feeding machine.

When it is desired to regulate the upward stroke of the plunger piston rod Ill by hand, means are provided in the form of additional vertical and horizontal shafts 9B, 9l,-Fig. 1,- having mitre gearing 92, 93, 9 95, and a hand wheel 86, mounted thereon or connected thereto, which are arranged to adjust a vertical shaft er, the lower end of which enters the topof the operating cylinder 62 of the plunger piston rod 6 i. This means for regulating the upward stroke of the piston rod BI and plunger i8 is of ordinary construction, but if desired may be operated by the just described automatic means.

The

In some cases it may be found advisable to form the plunger piston rod 6! in two portions,as shown at Fig. 11,-for automatically shortening and lengthening its stroke and consequently delivering predetermined different weights of molten glass through the orifice I of the boot 2, and outlet ring 20. When this is done the upper portion of the piston rod 6! is provided with a. keyway 98, in which a key 99, carried by bracket S00, is arranged to work for preventing the rotation of the piston rod 6!, and its lower part Hill is reduced in diameter and provided with a screw thread on its periphery. The lower and second part fil of the piston rod 6! is provided with a central internal screw threaded hole I02 at its upper end which engages with the screw thread formed upon the reduced end ID! of the upper portion of the piston rod 6!. On the lower portion of the piston rod 6!, and at a suitable distance from its upper end, is slidably mounted a bevel or mitre wheel I83 which engages with the mitre or other wheel 66' mounted upon the first named horizontal shaft Bl. The slidable bevel or mitre wheel 183 is provided with a key m which slides in a vertical keyway I05 formed in the end of the lower portion 65 or the said end may be made of a square'or other suitable cross section so that the lower portion fil of the piston rod 6| will rotate with the bevel or mitre wheel 33.

By the just described automatic means the lower portion 6 l of the piston rod 5! is caused to travel up or down the screw threaded end fill of the upper portion of the piston rod 6! for automatically lengthening or shortening the stroke of the plunger I 8, and thereby regulating the weight of the glass to be delivered.

In order to control the temperature of the feeder between two predetermined degrees of heat, the following mechanism is employed:

The temperature is arranged to be indicated or recorded on the usual type of indicating or recording pyrometer 558 as shown in Fig. 2. When the temperature has reached a given maximum an electrical circuit,-connected to the pyrometer,-is arranged to be completed and a second electrical circuit will be broken; when a given minimum is reached the second circuit will be completed and the first circuit will be broken in a known manner.

The means employed for controlling the temperature in a glass feeder,-and which are operated by the above named electrical circuits,- are arranged as follows:

Compressed air is supplied from any suitable source to a valve of the type in which a number of ports and passages are provided in the valve plunger l06,which acts as a valve,--and casing Hi1 so as to make a double acting valve, as shown at Fig. 12. The compressed air is supplied to the burner or burners |5l,employed for heating the feeder,--and also to two cylinders I08, I09,Figs. l and 2,-which are respectively employed for operating the damper H0 between the furnace and the feeder, and the damper H I arranged in the chimney H2 which is connected to the outlet flue N3 of the feeder. One single valve I E36 may be employed for supplying the compressed air to the three just named parts, that is, the burners and the two operating cylinders Hi8 and N19, or three separate valves I06 may be employed for the same purpose. All of the valves l06,--when more than one is employed-are of the same or similar construction. The first passage 103 in the plunger or valve I06 is L-shaped and communicates at one end with a port I09 formed in the wall of the casing I01 and at its other end with the upper surface of the plunger I06 for forming an exhaust passage. A second horizontal passage I Ill is formed at or about the centre of the plungers length which communicates with the compressed air inlet pipe III and with a port II2 A vertical recess IIS is formed in the periphery of the plunger I66 in such a manner that it passes in a downward direction from the central horizontal passage III at the inlet end thereof. A third and L-shaped exhaust passage H4 is formed in the plunger I06 below the central horizontal passage I I so that when the plunger is in its lowest and normal position,as shown at Fig. 12,its outer ends are closed, compressed air only passing from the inlet pipe I I I through the plunger E66 into and through ports I09 or II2 The plunger I06 is provided at one or both of its ends with a stem II which projects a suitable distance beyond the end or ends of the casing I0? so as to enable each of the ends of the plunger I66 to be connected by a link II6,secured to the stem II5,or by brackets II I, Hi, to a solenoid H3. The two solenoids H8, H8 are alternately energized by the before named electrical circuits operated by the pyrometer. When the maximum temperature is reached the first circuit is completed and the second circuit broken, whereby one of the solenoids I I8,say, the upper,of each valve I06 employed will be operated, for moving the valve in an upward direction so that the position of the central passage H6 will be opposite the compressed air inlet II I and the outlet I09. Compressed air will then pass along the air lines or tubes I 9 to the inlet openings I20 arranged respectively at one of the ends of the cylinders I2I of a pair of valves I 22,constructed as shown at Fig. 13, whereby the pistons I23 of the cylinders I2I will move the ports I24 formed in the valves I22 out of alignment with the inlet and outlet ports I25, I26, formed in their casings I27 for cutting off the supply of air and gas or oil to the burner or burners employed for heating the feeder. At the same time compressed air will pass through the double acting valve I 66 along air lines or tubes I I6, to inlet openings respectively at one of the ends of the pair of cylinders I08, I09, Figs. 1 and 2,employed for operating the furnace and chimney dampers I I0, III. When air is admitted to, say, the lower or outer end of each of the said cylinders I08, I09, the pistons I28, I29, and rods I36, I31, thereof are moved in an upward or horizontal direction for allowing the dampers IIO, III ,-which are attached indirectly thereto by means of, say, chains or wire ropes I32 passing partially around pulleys I 33, or directly by a link I 34,--to be lowered or moved into position for wholly or partially closing the furnace heat space I35,Fig. 2,or orifice of the chimney II2. In some cases only one of the dampers H0, Ill, is moved simultaneously with the cutting off of the air and gas or oil supply to the burner or burners. Suitable adjustable stops I36 are provided on the piston rod NHL-and in,

some cases on the rod I 3i,of the just named operating cylinder I58, and also on the stems I31 of the compressed air and gas or oil valves I22 so that the strokes of the said valves and pistons may be controlled. By this arrangement the amount of compressed air and gas or oil supplied to the burner or burners, and the distance of travel of the damper or dampers, may be regulated as desired.

As the temperature in the feeder is reduced to a minimum as a result of the above named automatic operations, the first circuit will be broken and the second circuit completed for reversing the operations. the lower, will now be energized for moving the double acting valve I05 so that the central horizontal passage IIIl is opposite to the inlet III a and the outlet H2 in the valve casing. Compressed air will then be allowed to pass along suitable air lines or tubes I38 to ports I39 respectively formed in the opposite ends of the cylinders I2I of the compressed air and gas or oil valves I22 and the damper operating cylinders I08, I09. When this operation takes place compressed air and gas or oil is admitted to the burner or burners through ports I24, I25, I26, the piston I30 of the furnace damper operating cylinder I08 moved downwards for lifting the said damper and allowing more heat to pass from the furnace into the heat spaces around the boot 2 in the feeder, and the chimney damper II I, simultaneously opened by the horizontal stroke of the piston I 3| attached thereto.

By the double acting valve I06 being constructed as before described, air is admitted at one end of each of the operating cylinders I68, I09, I2I, and passed out of the opposite end to be exhausted, through one of the exhaust passages I08 I I4, in the said valve, to the atmosphere.

In some cases it may be found advisable to use only .one solenoid II8, say, the upper, and move the double acting valve plunger I06 in the opposite direction by means of a spring or other similar device.

Irwill readily be understood that the described combination of a damper H0 for the furnace heat space I35, valves I22 for the burner or burners and a chimney damper III may be 40 varied, that is, one or more of the said parts may be dispensed with or others added, or the said parts,when all three are employed,may be timed to work separately or only two may work simultaneously.

When preferred the automatically operated mechanism for regulating the damper Ill; and controlling the amount of heat passing from the furnace, may be replaced by. hand operated mechanism,--shown at Fig. 14,in which case the following arrangement is employed, namely:-

The furnace damper H0, is made of refractory material, and provided with a suitably shaped clamp or gripping member M0 at its upper end by which it is attached to one end of the before named rope or chain I32 arranged to pass upward in a vertical direction to and partially around the first guide pulley I33, then horizontally to and partially around the second guide pulley I33, from whence it is carried downward 0,0 in a vertical direction. All the just named parts are of the same construction as those employed for the automatic control of the damper H0. The second and free end of the rope or chain E32 is secured to a vertical rod i4! mounted in suitable bearings I42, I43, formed or fixed on, say, the feeder box casting 80. The lower end of the rod I H is screw threaded for the reception of a hand wheel I44 which is arranged to impinge against the under surface of the lower bearing I43 so that when the hand wheel 54% is rotated the damper H6 will be raised or lowered through the rod MI and rope or chain I 32 according to the direction of rotation. A pointer The second solenoid II8, say, 5

and arranged to move up and down a scale l46,- marked in, say, inches,provided on, say, the feeder box casting 86 so that the position of the damper IN) is indicated.

What I claim is:-

1. In glass feeding machines the combination of a fixing rod, a plunger having a flange formed thereon, a detachable clamp for adjustably s.- curing the fixing rod to the plunger, means for centralizing the plunger with the outlet of the feeder, said means comprising a number of slides working in a corresponding number of slide holders, one of the slide holders being provided with a pair of bifurcated lugs in which are pivoted a pair of double ended levers, the lower enlarged ends of each of said levers being adapted to grip the periphery of the plunger below the flange form thereon, the upper ends of the said levers being thrust outwards by springs working against slidable collars mounted upon horizontal pins wh'ch in turn are secured to projections formed on the bifurcated lugs, and means for securing the slides in a fixed position, as set forth.

2. In glass feeding machines the combination of a plunger having a flange formed thereon, a fixing rod having a number of slides and their holders, one of the slides be ng formed on the fixing rod, a pair of bifurcated lugs formed on one of the slide .holders, a double ended lever mounted in each bifurcated lug, the lower end of each of said levers being adapted to grip the plunger below the flange thereon, and means for controlling the upper ends of the double ended levers, comprising a pair of partally screw threaded headed pins pivoted to upstanding projections formed on the bifurcated lugs, sliding collars mounted upon the outer ends of the pivoted pins and nuts for adjusting the collars, as set forth.

3., In glass feeding machines, the combination of a plunger having a flange formed thereon, a fixing rod provided with a single slide and its holder, adjusting screws for controlling the slide, a pair of bifurcated lugs formed on the slide holder, a double ended lever mounted in each bifurcated lug, the lower end of each of the said levers being adapted to grip the plunger below the flange thereon, and means for controlling the upper ends of the said levers comprising a pair of partially screw threaded horzontal pins, each of said pins being formed in two parts pivoted together, and secured to an upstanding projection formed on the bifurcated lugs, and an adjusting nut mounted on the outer end of the horizontal pin, as set forth.

4. In glass feeding machines including an outlet orifice, a plunger operating therein and a piston rod attached to said plunger, means for automatically regulating the stroke of said plunger for delivering different predetermined Weights of glass from said orifice comprising a stop fixed to said piston rod and a movable stop mounted on said piston rod for movement relative thereto, an operating cylinder actuated by compressed air, a piston in said cylinder, and means for transmitting the movements of said piston to the movable stop.

5. In glass feeding machines including an outlet orifice, a plunger operating therein and a piston rod attached to said plunger, means for automatically regulating the stroke of said plunger for delivering different predetermined weights of glass from said orifice comprising a stop fixed to said piston rod and a movable stop mounted on said piston rod for movement relative thereto, an operating cylinder actuated by compressed air, a piston in said cylinder, a piston rod attached to said piston, a rack rigidly fixed to said piston rod, a spur pinion in mesh with said rack, and gears and shafts connecting said spur pinion with said movable stop.

6. In glass feeding machines including a forehearth having an outlet therein, and a plunger operating in the outlet of said forehearth, means for regulating the temperature of the glass feeder comprising burners for heating said forehearth, a plurality of valves supplying air and fuel to the burners, iiues opening into the forehearth, dampers positioned in the fiues, operatcylinders connected to said valves and dampers, a plurality of double-acting valves adapted to supply compressed air to said operating cylinders, a pyrometer positioned in the forehearth, and solenods operatively connected to said double-acting valves and energized by electrical circuits connected to said pyroineter, whereby the temperature is maintained between a predetermined rnaximum and minimum.

7. In a glass feeding machine including a forehearth having an outlet therein, a plunger operating in the outlet of said forehearth, burners for heating said forehearth, air and fuel valves connected to said burners, fiues opening into said forehearth, and dampers in the fines, means for regulating the temperature of the glass in said forehearth including a temperature-responsive device positioned in the forehearth, operating cylinders for regulating said valves and dampers, a double acting valve for supplying compressed air to said operating cylinders, and means actuated by said temperature-responsive device for controlling said double acting valve.

JOHN THOMAS WOOD. 

